CN112618003A - Radio surgical tissue closed cutting forceps and system thereof - Google Patents

Abstract

The invention belongs to the technical field of electrosurgical surgical instruments, and particularly relates to a radio surgical tissue closed cutting forceps and a radio surgical tissue closed cutting system. The wireless radio surgical tissue closed cutting forceps comprise wireless radio surgical tissue closed cutting forceps and a wireless host, wherein a plug assembly is installed at the bottom of a holding handle of the wireless radio surgical tissue closed cutting forceps; the wireless host comprises a host body, wherein a battery, a host part assembly and a socket assembly are arranged on the host body and are connected through a circuit; cutting pincers and wireless host computer form integral type assembly structure through butt joint structure and locking structure. The radio surgical tissue closed cutting forceps and the system thereof are of an integrated structure, the cutting forceps are not dragged by cables to influence the operation action in the operation process, the operation is convenient, and a plurality of inconveniences brought by a split structure are solved.

Description

Radio surgical tissue closed cutting forceps and system thereof

Technical Field

The invention belongs to the technical field of electrosurgical surgical instruments, and particularly relates to a radio surgical tissue closed cutting forceps and a radio surgical tissue closed cutting system.

Background

The existing forceps system for closing and cutting tissues in the electrosurgery is generally of a split structure, namely, the forceps system consists of a forceps, a main machine and a connecting cable. When in use, the operating forceps need to be connected with the main machine by a cable, the main machine needs to be connected with a reliable alternating current power supply, and a plug on the cable needs to be always reliably connected with the main machine in the operation process.

The prior art mainly has the following problems:

(1) the main machine has large volume, high price, complex structure and difficult maintenance, needs special space and auxiliary instruments for placement, and brings inconvenience to use, storage and transportation;

(2) in the operation process, the operating forceps are reliably connected with the main machine by using a long cable, the operation action of a doctor is influenced by the dragging of the cable, the operation is inconvenient, and the operation risk caused by pulling out the plug is caused;

(3) the host has operation requirements such as function selection, foot control and the like, which brings inconvenience to doctors, and the host is required to be checked and maintained regularly at ordinary times, so that the use and maintenance cost of the equipment is increased.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a radio surgical tissue closing cutting forceps with an integrated structure, which is portable, and has the advantages of small volume, light weight, convenient operation and use, etc.

In order to achieve the technical purpose, one of the technical schemes adopted by the invention is as follows:

radio surgery tissue closed cutting pincers and system thereof includes:

the wireless surgical tissue closed cutting forceps are characterized in that a plug assembly is mounted at the bottom of a holding handle of the wireless surgical tissue closed cutting forceps;

the wireless host comprises a host body, wherein a battery, a host part assembly and a socket assembly are arranged on the host body and are connected through a circuit;

the butt joint structures are respectively arranged on the plug assembly and the host body and are used for realizing the alignment and connection of plug terminals in the plug assembly and socket terminals in the socket assembly;

the locking structures are respectively arranged on the plug assembly and the main machine body and are used for locking and fixing the wireless surgical tissue closed cutting forceps and the wireless main machine;

the cutting pliers and the wireless host form an integrated assembly structure through the butt joint structure and the locking structure.

As a preferred technical scheme, the plug assembly comprises a mounting seat matched with a mounting hole at the bottom of a holding handle, the mounting seat is divided into an upper part, a middle part and a lower part, an upper disc-shaped structure is arranged in the mounting hole at the bottom of the holding handle, a middle columnar structure is matched with the mounting hole, a terminal fixing seat is fixedly arranged in a lower shell-shaped structure, and a plug terminal is arranged on the front end face of the terminal fixing seat; through holes are arranged in the upper part and the middle part and are used for penetrating through wires connected with the plug terminals.

As a preferred technical scheme, two inner side walls of a lower shell-shaped structure of the mounting seat are convexly provided with butt joint guide strips; a butt joint platform matched with the mounting seat is arranged on the front part of the socket terminal on the host body, and butt joint guide grooves matched with the butt joint guide strips are formed in two outer side surfaces of the butt joint platform; the butt joint guide strip and the butt joint guide groove form the butt joint structure.

As a preferred technical scheme, a locking pin hole is formed in the tail of the mounting seat, a locking pin matched with the locking pin hole in the tail of the mounting seat is mounted on the butt joint platform, and the locking pin hole form a locking structure; and a dismounting control button is arranged on the right side surface of the butt joint platform.

As a preferred technical scheme, arc edges connected with the installation seat in a smooth transition mode are respectively arranged on two sides of the middle columnar structure of the installation seat.

As a preferable technical scheme, an arc-shaped lead-in groove matched with the arc edge on the mounting seat in shape is arranged at the butt joint of the top of the main machine body and the wireless surgical closed cutting forceps.

Of course, the invention can also be realized by adopting another technical scheme that the socket assembly is arranged at the bottom of the holding handle of the radio surgical tissue closed cutting forceps, the plug assembly is arranged on the main machine body, and the butt joint structure and the locking structure of the socket assembly and the plug assembly are the same as those of the first technical scheme, and the invention also belongs to the protection scope of the invention.

In the above solution, the battery may be detachably mounted on the main body, or may be fixedly mounted, and the battery type is preferably a rechargeable battery, or may be other types.

Due to the adoption of the technical scheme, the invention has at least the following beneficial effects:

(1) the whole wireless radio surgical tissue closed cutting forceps and the system integrated structure thereof have the advantages that the cutting forceps cannot be dragged by a cable to influence the operation action in the operation process, the operation is convenient, the operation risk caused by pulling out a plug unintentionally is avoided, and a great deal of inconvenience brought by a split type structure is solved.

(2) Compared with a desktop host, the wireless host adopts a portable design and has the advantages of small volume, light weight (only one dozen times of that of the desktop), high cost performance and the like. The rechargeable battery is adopted for power supply, and the surgical instrument is replaceable, convenient to use and maintain and saves the surgical cost.

(3) The whole operation of the whole system is on hand, the foot control and the function selection of a desktop host are not needed, so that the attention of a doctor who performs the operation can be focused on the operation of the operation, and the concentration degree and the efficiency of the operation are improved.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

FIG. 1 is a schematic view of an assembled structure of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at I;

FIG. 3 is a block diagram of a wireless host according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a plug assembly in an embodiment of the invention;

fig. 5 is an exploded view of an embodiment of the present invention.

Detailed Description

The invention is further illustrated below with reference to the figures and examples. In the following detailed description, certain exemplary embodiments of the present invention are described by way of illustration only. Needless to say, a person skilled in the art realizes that the described embodiments can be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

Referring to fig. 1 and 5, the radio surgical tissue closing cutting forceps and the system thereof comprise a cutting forceps 10 and a wireless host 20, wherein the cutting forceps 10 and the wireless host 20 form an integrated assembly structure through a docking structure and a locking structure. The whole wireless radio surgical tissue closed cutting forceps and the system integrated structure thereof have the advantages that the cutting forceps cannot be dragged by a cable to influence the operation action in the operation process, the operation is convenient, the operation risk caused by pulling out a plug unintentionally is avoided, and a great deal of inconvenience brought by a split type structure is solved.

Specifically, a plug assembly 12 is fixedly mounted at the bottom of a holding handle 11 of the cutting nipper 10; the wireless host 20 comprises a host body 21, wherein the host body 21 is provided with a battery 22, a host part assembly 29 and a socket assembly, and the socket assembly comprises a socket terminal 23; the battery 22 is preferably a rechargeable battery, and may be of another type, either removably or fixedly mounted. Compared with a desktop host, the wireless host adopts a portable design and has the advantages of small volume, light weight (only one dozen times of that of the desktop), high cost performance and the like. The rechargeable battery is adopted for power supply, and the surgical instrument is replaceable, convenient to use and maintain and saves the surgical cost.

The butting structure is respectively arranged on the plug assembly and the host body and is used for realizing the alignment and connection of the plug terminals 121 in the plug assembly 12 and the socket terminals 23 in the socket assembly; and the locking structures are respectively arranged on the plug assembly 12 and the host body 21 and are used for locking and fixing the cutting pliers and the wireless host.

Referring to fig. 4 and 5, in the present embodiment, the plug assembly 12 includes a mounting seat 122 that is matched with the mounting hole 111 at the bottom of the grip handle 11, the mounting seat 122 is divided into three parts, namely, an upper disc-shaped structure 1221 is disposed in the mounting hole 111 at the bottom of the grip handle, a middle columnar structure 1222 is matched with the mounting hole 111, a terminal fixing seat 123 is fixedly disposed in a lower shell-shaped structure 1223, and the plug terminal 121 is disposed on a front end surface of the terminal fixing seat 123; through holes are arranged in the upper part and the middle part and are used for penetrating through a lead connected with a plug terminal; the plug assembly is matched with the mounting hole 111 at the bottom of the holding handle 11 through the mounting seat 122, and the plug assembly is mounted when the surgical forceps are assembled and is integrated with the surgical forceps into a whole after being assembled and cannot be disassembled.

Referring to fig. 2 to 4, the lower housing-like structure 1223 of the mounting seat 122 has two inner sidewalls on which the docking guide bars 126 protrude; a docking platform 24 matched with the mounting seat 122 is arranged on the front part of the socket terminal 23 on the host body 21, and docking guide grooves 25 matched with the docking guide strips 126 are arranged on two outer side surfaces of the docking platform 24; the docking guide bar 126 and the docking guide groove 25 constitute the docking structure.

A locking pin hole 127 is formed in the tail of the lower shell-shaped structure 1223 of the mounting seat 122, a locking pin 26 matched with the locking pin hole 127 in the tail of the mounting seat 122 is mounted on the docking platform 24, and the locking pin 26 and the locking pin hole 127 form a locking structure; a dismounting control button 27 is arranged on the right side surface of the butt joint platform 24, and the locking pin 26 can be controlled to extend inwards and separate from the locking pin hole 127 by pressing the dismounting control button 27; of course, other structures, such as a latch type, can be adopted to disassemble the operation button.

In order to improve the reliability when the plug terminal 121 in the plug assembly 12 is aligned and connected with the socket terminal 23 on the wireless host 20, the two sides of the middle columnar structure 1222 of the mounting seat 122 are respectively provided with an arc edge 129 connected with the middle columnar structure; an arc-shaped lead-in groove 28 matched with the arc edge 129 on the mounting seat 122 in shape is arranged at the joint of the top of the main machine body 21 and the closed cutting forceps for the radio surgical operation;

when the wireless host machine is used, the fully charged battery 22 is installed on the host machine body 21, then the wireless host machine 20 or the plug assembly 12 slides along the butt joint structure of the plug assembly 12 and the wireless host machine 20, the plug terminal 121 on the plug assembly is aligned and communicated with the socket terminal 23 on the wireless host machine until the locking pin 26 is inserted into the locking pin hole 127 and locked, then the power switch on the wireless host machine 20 is turned on, electrosurgery can be performed, and tissues such as blood vessels and the like can be closed and cut. After use, if the wireless host needs to be detached, the detachment control button 27 of the locking pin is pressed downwards to separate the locking pin 26 from the locking pin hole 127, and then the plug assembly or the wireless host slides in the opposite direction, so that the two can be separated.

The invention has the advantages that all operations of the whole system are performed on the hand, the foot control and the function selection of a desktop host are not needed, so that the attention of a doctor performing the operation can be focused on the operation of the operation, and the concentration degree and the efficiency of the operation are improved.

It should be noted that, as a modification of this embodiment, the plug assembly on the grip handle may be changed into the socket assembly, that is, the plug terminal is correspondingly changed into the socket terminal, and the wireless host is correspondingly provided with the plug assembly, that is, the socket terminal is changed into the plug terminal, and then the docking structure and the locking mechanism are aligned and connected.

In this embodiment, a horizontal docking manner is adopted when the plug assembly and the receptacle assembly are docked, and as a modification to this embodiment, the plug assembly and the receptacle assembly may be adjusted to a vertical docking manner.

The above description is only an exemplary embodiment of the present invention, and is not intended to limit the scope of the present invention. Any equivalent changes and modifications that can be made by one skilled in the art without departing from the spirit and principles of the invention shall fall within the protection scope of the invention.

Claims (7)

1. Radio surgery tissue closed cutting pincers and system thereof, characterized by that includes:

the wireless surgical tissue closed cutting forceps are characterized in that a plug assembly is mounted at the bottom of a holding handle of the wireless surgical tissue closed cutting forceps;

the wireless host comprises a host body, wherein a battery, a host part assembly and a socket assembly are arranged on the host body and are connected through a circuit;

the butt joint structures are respectively arranged on the plug assembly and the host body and are used for realizing the alignment and connection of plug terminals in the plug assembly and socket terminals in the socket assembly;

the locking structures are respectively arranged on the plug assembly and the main machine body and are used for locking and fixing the wireless surgical tissue closed cutting forceps and the wireless main machine;

the cutting pliers and the wireless host form an integrated assembly structure through the butt joint structure and the locking structure.

2. The radiosurgical tissue closing cutting forceps and system thereof of claim 1, wherein: the plug assembly comprises a mounting seat matched with a mounting hole in the bottom of the holding handle, the mounting seat is divided into an upper part, a middle part and a lower part, an upper disc-shaped structure is arranged in the mounting hole in the bottom of the holding handle, a middle columnar structure is matched with the mounting hole, a terminal fixing seat is fixedly arranged in a lower shell-shaped structure, and the front end face of the terminal fixing seat is provided with the plug terminal; through holes are arranged inside the upper disc-shaped structure and the middle columnar structure and are used for penetrating through wires connected with the plug terminals.

3. The radiosurgical tissue closing cutting forceps and system thereof of claim 2, wherein: two inner side walls of a lower shell-shaped structure of the mounting seat are provided with butt joint guide strips in a protruding mode; a butt joint platform matched with the mounting seat is arranged on the front part of the socket terminal on the host body, and butt joint guide grooves matched with the butt joint guide strips are formed in two outer side surfaces of the butt joint platform; the butt joint guide strip and the butt joint guide groove form the butt joint structure.

4. The radiosurgical tissue closing cutting forceps and system thereof of claim 3, wherein: the tail part of the mounting seat is provided with a locking pin hole, the butt joint platform is provided with a locking pin matched with the locking pin hole at the tail part of the mounting seat, and the locking pin hole form a locking structure; and a dismounting control button is arranged on the right side surface of the butt joint platform.

5. The radiosurgical tissue closing cutting forceps and system thereof of claim 3, wherein: and arc edges connected with the installation seat in a smooth transition mode are respectively arranged on two sides of the columnar structure in the middle of the installation seat.

6. The radiosurgical tissue closing cutting forceps and system thereof of claim 5, wherein: an arc-shaped lead-in groove matched with the arc edge on the mounting seat in shape is arranged at the butt joint of the top of the main body and the closed cutting forceps for the radio surgical operation.

7. Radio surgery tissue closed cutting pincers and system thereof, characterized by that includes:

the wireless surgical tissue closed cutting forceps are characterized in that a socket assembly is mounted at the bottom of a holding handle of the wireless surgical tissue closed cutting forceps;

the wireless host comprises a host body, wherein a battery, a host part assembly and a plug assembly are arranged on the host body and are connected through a circuit;

the butt joint structures are respectively arranged on the socket assembly and the host body and are used for realizing the alignment and connection of socket terminals in the socket assembly and plug terminals in the plug assembly;

the locking structures are respectively arranged on the socket assembly and the main machine body and are used for locking and fixing the wireless surgical tissue closed cutting forceps and the wireless main machine;

the cutting pliers and the wireless host form an integrated assembly structure through the butt joint structure and the locking structure.

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